Radiowave-induced Resistance Oscillations

Abstract

Microwave-induced resistance oscillations (MIROs) zudov:2001a occur when a 2D electron gas is subjected to radiation of frequency ω= 2 πf and varying magnetic field B. MIROs are periodic in 1/B, with the period determined by the radiation frequency ω, and their amplitude scales with the radiation power. Stepping from single-photon transitions between Landau levels, MIROs are found on the lower-field side of the cyclotron resonance, ωc ω, where ωc is the cyclotron frequency. Here, we report on experimental observation of another class of magneto resistance oscillations, which are also induced by radiation, but in the radio frequency (UHF band) range. These oscillations are distinct from MIROs in the following aspects: (i) they occur at ωc ω, (ii) their amplitude is independent of radiation power, (iii) their period is controlled by the radiation electric field, rather than by ω, and (iv) they can be either 1/B or 1/B2-periodic, depending on B. We further show that these oscillations can be explained by a displacement model in the limit of short-range disorder.